Circuit breaker



Aug. 24, 1943.

W. KAUFMANN EI'AL CIRCUIT BREAKER Filed Nov. l5, 1940 4 Sheets-Sheet l Aug. 24, 1943. w. KAUFMANN ETAL 2,327,799

GERCUIT BREAKER FiledONOv. 15, 1940 Sheets-Sheet 2 AIU|8 24, 1943 w. KAUFMANN rs1-A1. 2,327,799

CIRCUIT BREAKER ATTORNEY Patented Aug. 24, 1943 CIRCUIT BREAKER Werner Kaufmann, Berlin-Siemensstadt, Otto Flgel, Berlin,

Adolf Thewalt, Berlin-Siemensstadt, and Leopold Ferschl, Berlin, assignors to Westinghouse Electric facturing Company, East Germany, & Manu- Pittsburgh, Pa., a corporation of Pennsylvania Application November 15, 1940, Serial No. 365,824 In Germany August 25, 1939 (Cl. 26S-89) 21 Claims.

The invention relates to circuit interrupting apparatus and more particularly to high voltage circuit breakers for use in electrical transmission or distribution systems to open and automatically -reclose the circuit.

The copending application of Werner Kaufmann, Serial No. 289,535, led August 11, 1939, and assigned to the assignee of the present invention, now Patent No. 2,312,174, granted February 23, 1943, discloses a high voltage circuit breaker which operates to open and automatically reclose the circuit for the purpose of extinguishing short-circuit arcs arising in the circuit cr network, The circuit is interrupted upon the occurrence of a short-circuit by a circuit interruptor, preferably an expansion breaker, and is thereafter reclosed by a separate pair of contacts, preferably a knife switch operating in air which is structurally associated with the circuit interruptor. The reclosing knife switch is coupled or interlocked with the circuit interruptor in such a way that the desired sequence of operation is maintained and the knife switch begins its closing operation as soon as the moving contact of the circuit interrupter arrives at the full open circuit position.

It has been found that the time between the opening of the circuit and reclosing of the circuit in such apparatus cannot be increased or otherwise varied a suicient amount to meet particular requirements or circumstances.

Moreover, because of variable operating conditions, for example, variations in ambient temperature, certain undesired variations in the time interval between the opening and reclosing of the circuit occur. These variations are caused less by the different lengths of the interval during which the arc persists at the point of opening of the circuit than by the inuence of the operating conditions on the speed of movement of the circuit interruptor element. The last-mentioned variations are undesirable and should be avoided.

The present invention constitutes a further development and improvement of the invention disclosed in the aforementioned copending application Serial No. 289,535.

An object of the present invention is the provision of an improved circuit breaker which is operable to interrupt the circuit at a set of circuit interrupting contacts and to automatically reclose the circuit at a separate set of contacts a predetermined and definite time interval after opening of the circuit interrupting contacts.

Another object of the invention is the provision of a circuit breaker ofthe class described in which means is provided for accurately predetermining the time interval between opening of the circuit at the interrupting contacts and reclosing of the circuit at the reclosing contacts.

Another object of the invention is the provision of a circuit breaker of the class described having a construction such that the predetermined time interval between opening and reclosing of the circuit is substantially independent of the magnitude of the power to be interrupted and of other variable operating conditions.

Another object of the invention is the provision of a circuit breaker as previously described in which the predetermined time interval between opening and reclosing of the circuit is substantially independent of the speed of movement of the contacts of the interrupter and is unaffected by variations in ambient temperature.

Another object of the invention is the provision of a circuit breaker as previously described in which the reclosing operation is initiated a predetermined time interval after the moving contact of the circuit interrupter has passed an intermediate point in its opening movement.

Another' object of lthe invention is the provision of a circuit breaker as previously described which embodies an adjustable timing device for predetermining and selectively varying the time interval between opening' and reclosing of the circuit.

Another object of the invention is the provision of an improved circuit breaker as previously described which is simple, accurate and reliable in operation, and inexpensive to manufacture.

In accordance with thc invention the circuit breaker comprises a circuit interruptor, by means of which the circuit is interrupted, and a separate switch operating in air structurally associated with the interruptorr for automatically reclosing the circuit a predetermined time interval after openingr of the circuit by the interrupter. The contacts of the interrupter and of the reclosing' switch are actuated by separate drives, and the drive for the switch, which is preferably of the spring type is released for closing by a ti'ning device which is in turn set in operation by the circuit interrupter at a predetermined intermediate point in the opening movement of the interrupter contacts. The timing device is preferably of the falling weight or pendulum type and embodies an adjusting means whereby the time interval lbetween opening and reclosing of the circuit may be preselected.

The novel features that are considered characteristic of the invention are'set forth in particular in the appended claims. The invention itself, however, both as to structure and operation together with additional objects and advantages thereof will be best understood from the following detailed description of several embodiments of the invention when read in conjunction with the accompanying drawings in which:

Figure 1 is a sectional view of a circuit breaker or short-circuit extinguisher constructed in accordance with the invention, the control devices and circuits being shown schematically, and the breaker being shown in the normal closed circuit position;

Fig. 2 is a view similar to Fig. 1 showing the positions of the parts after the circuit has been interrupted b-y the circuit interrupter and reclosed by the associated air break switch;

Fig. 3 is a perspective view of the timing device and the movable parts of the switch;

Fig. 4 is a sectional View of a modified form of the circuit breaker, the control devices and the circuits being shown schematically, and the circuit breaker being shown in the normal closed circuit position; Y

Fig. 5 is an elevational view of a modified pendulum construction for the timing device; and

Fig. 6 is a perspective View' of the circuit breaker shown in Fig. 1.

The circuit breaker embodying the features of the invention is illustrated as being of the multipole type and comprises three pole units l mounted in spaced relation on a box-shaped metal housing 9 which houses the operating mechanism of the breaker. The base 9 is shown as being provided with wheels IU whereby it may be rolled into and out of operative position. The several pole units are of identical construction and each is mounted on a supporting insulator H preferably of vitreous insulating material which is secured to the top of the base 9 and serves to insulate the pole unit from the metal base.

.Each pole of the circuit breaker comprises a pair of enclosed circuit interrupting contacts by means of which the circuit is interrupted, and an associated pair of air break contacts by means of which the circuit is automatically reclosed a predetermined time interval after interruption of the circuit.

Referring to Figure 1 of the drawings, the circuit interrupting unit of each pole of the breaker comprises a cup-shaped terminal i3 of conduct ing material secured to the supporting insulator Il and having a stationary contact l5 mounted centrally therein which forms the fixed contact of the circuit interrupter.

A tubular casing l1 of strong insulating material is mounted at its lower end on the cupshaped terminal i3 and this tubular casing has a generally spherical hollow metal head i9 secured to its upper end. The tubular Acasing Il is preferably secured to the terminal i3 and head i9 inY a fluid-tight manner as for example, by

having a screw-threaded engagement with the terminal Yand with the head.

' A movable contact member 2i in the form of a bar or rod of conducting material is mounted for vertical movement in the casing Il and hollow head I9, Vand is guided for vertical movement therein by a guide member 23 secured in the neck of the headV I9.

A shaft 25 extends transversely through the hollow head i9 and is rotatably mounted in suit- (ifi able bearings formed on the opposite sides of the head. A crank lever 2l is rigidly secured to the shaft 25 inside of the head and is connected at its free end to the upper end of the movable contact member 2i by means of a slot 29 which engages a pin Si carried by the upper end by the movable contact member 2i.

An arc extinguishing means of any suitable type may be provided within the interrupting chamber 33 for extinguishing the arc drawn between the contacts 2l and i5 during interruption of the circuit. The arc extinguishing means may be of any well known type, as, for example, a fluid 35, such as water or oil, contained within the chamber 33. If desired, the other known types of arc extinguishing structure, either of the fixed or expansion type, may be associated with 'the Contact means of the interrupter.

The movable contact members 2l of the three poles of the circuit breaker are adapted to be simultaneously actuatedto open orto closed circuit position by actuating means disposed in the housing 9, comprising a common actuating shaft 3l which is rotatably mounted in the housing 9. Each of the movable rcontact members 2l is'mechanically connected to the shaft 31 for actuation vthereby by means of an insulating rod 39 which extends through an opening provided in thertcp of the housing 9, the lower end of the insulating rod 3Q being pivotally connected to an individual crank arm il rigidly secured to the shaft 3l, and the upper end of the insulating rod being pivotally connected to a crank arm 43 secured to the shaft 25 of the circuit interrupter at a point outside of the head I9. y

The movable contact members 2l are biased upwardly `toopen circuit position by means of accelerating orcircuit opening springs l which act to rotate the shaft 3i in a clockwise or opening'direction. The movable contact members 2 are normally held in closed circuit rposition against the opening force of the accelerating springs 5.5 by means of a latch lli which normally engages a latch projection 69 on a resetting bar Si which is connected to the actuating shaft 3l vby a crank arm 53.

The latch lil is carried by a trip bar 55 whicl'i is rotatably mounted in the housing il. The trip bar 55 is biased to latching position by a tension spring 56 and is adapted to be actuated to tripped position by any one of three tripping solenoids 5l (only one being shown) which have their plungers pivotally connected to arms projecting from the trip bar 5,5, there being one tripping solenoid for each pole of the circuit breaker. Each tripping solenoid 5'! isrenergized in response to the current flowing through its pole of the interrupter by means of a current transformer 59.

When a short circuit occurs in the circuit of anypole of the circuit breaker the tripping solenoid 5l of the affected pole rotates the trip bar 55 countcrclockwise as viewed in Fig. l and thus effects release of the actuating shaft 3i, causing simultaneous opening of the three movable contact members 2i by the accelerating spring d5. Under normal circuit conditions, however, the contact means of the circuit interrupters are held in closed circuit position as shown in Fig. 1 by the laten ai.

Each circuit interrupter may be provided with an auxiliary knife switch comprising a switch blade 6I rotatably mounted on the shaft 25 outside of the head i9, and a stationary contact jaw t3 carried by the terminal B5. The terminal 65 is mounted on a fixed support 6'| above the head of the circuit interruptor and is insulated from the xed support by an insulator 69. The switch blade 6| is coupled for movement with the movable Contact member 2| by means of a lost mction connection comprising a notched disk 'l rigidly secured to the rotatable shaft 25 and a projecting pin i3 onr the switch blade I-I which engages in the V-shaped notch of the disk 1I, the lost motion connection between the movable contact 2| and the switch blade 6| being such that during a circuit opening operation the switch blade 8| is moved' to open position after the movable Contact 2I has opened a predetermined amount, and during a closing operation the switch blade 6| is moved to closed position immediately after the movable contact 2| has engaged the stationary contact; I5. The auxiliary switch 6I-63 provides a safe air gap in the circuit when the circuit breaker is permanently disconnected, that is, when all of the contacts and switches of the circuit breaker are in open position.

Each circuit interrupting device is electrically connected in one of the three main circuits controlled by the breaker, one of the three main circuits being represented by the lines 'l5-TI. 'Ihe line I5 is electrically connected to the lower terminal I3 of the circuit interruptor and the line is electrically connected to the upper terminal 65. 'I'he lower terminal I3 is directly electrically connected to the stationary Contact I5, and the switch blade 6I is electrically connected to the movable contact member 2| in any suitable manner, as, for example, through the shaft 25 and a flexible shunt conductor (not shown) to the movable contact member 2 I.

For reclosing the circuit following a circuit interruption, an additional pair of contacts or switching device is provided which comprises an air break switch indicated generally at 'I8 associated with the circuit interrupting unit. The air break switch 79 comprises a switch blade 8| which is pivotally mounted on the lower terminal I3 of the circuit interruptor, and a xed jaw contact 83 which is mounted on a xed support 85 and insulated therefrom by an insulator 81. The air break switch 19, by means of which the circuit is reclosed, is electrically connected in the circuit in parallel to the contacts of the y interrupter and the auxiliary switch ill-63, the

blade 8| of the switch being electrically connected to the terminal I3 and the stationary jaw contact 83 being electrically connected to the line "Il by means of a conductor 89.

A separate actuating means is provided for simultaneously actuating the air break switches T5. This actuatingr means comprises an actuating shaft 9| rotatably mounted in the housing 9 and mechanically connected to the three switch blades 8| by means of crank arms 93 secured to the shaft SI and by insulating rods 95 which extend through suitable openings in the top of the housing 9. The upper ends of the insulating rods 95 are pivotally connected to the switch blades 3|, and the lower ends of the rods are pivotally connected to their respective crank arms 93. The switch blades 6| are biased and actuated to closed position by means of an actuating spring 9T which acts to rotate the shaft 9| in a counterclockwise direction Viewed in Fig. l, when the shaft is released.

'I'he air break switches '|53 are normally held in open position by means of a latch 99 rotatably mounted on a fixed shaft 0| in the housing 9.

The air break switches 'I9 are arranged to automatically reclose the circuit a predetermined interval of time after interruption oi the circuit by the circuit interrupting devices 2 I.

It is important that the time interval between opening and reclosing of the circuit be made adjustable or variable in order that the device may be adapted to different operating conditions. It is also important that once the time interval has been set or predetermined it should remain substantially constant and unaffected by variations To meet these requirements of adjustability and accuracy of timing there is provided an adjustable timing device indicated generally at |3 which is set in operation at a. predetermined point in the initial opening movement of the circuit interrupting contacts, and operates to effect a closing operation of the air break switches 'i9 a predetermined time interval after interruption of the circuit by the circuit interrupting devices.

Referring' to Fig. 3, the timing device I 03 comprises a pendulum |05 which is rotatably mounted for free swinging movement on the shaft I0| and which is normally held in a raised or elevated position as shown by means of a latch |67. The latch |01 is pivotally mounted |08 and engages an arm |00 rigidly secured to the hub of the pendulum. The latch Ia.' is adapted to be released at a predetermined point in the contacts 2|, preferably at a point shortly after the contacts 2| separate from the stationary contacts I5. For this purpose a tripping element |I| is adjustably secured to the `actuitibizfife; shaft 31 in a position to engage and release the latch |01 at the desired predetermined point in the initial opening movement of the circuit interrupting contacts 2|. The trip element III has an annular hub H3 which engages the actuating shaft 3l and is rigidly secured in adjusted position thereon by a setscrew l l5. l e tripping element is provided with a projecting portion I Il having an opening therein in which is mounted a spring-pressed plunger H9. The plunger II9 is adapted to engage and trip the latch |01 when the actuating shaft 3l is rotated in a clockwise direction, and is provided with beveled end so that the plunger is forced baci; to clear the latch I 0l when the actuating shaft 3l is rotated in a counterclockwise direction to return the circuit interrupting contacts to closed The pivoted latch Ill'l is prevented from rotating clockwise beyond its latching position by means of a fixed step IBI v hich enga ges a rearwardly extending projection of the latch.

The latch lever 99, which normally holds the air break switches 19 in open position is constructed as a double arm lever, one arm I 23 of which is adjustable angularly with respect to the latch arm 99. The adjustable arm |23 of the latch 99 carries a pin |25 which projects laterally therefrom into the path of movement of the pendulum |05 so as t0 be engaged at a predetermined point in the swing of the pendulum, depending upon the angular setting of the arm |23 relative to the latch arm 99. The latch arm SFI has a calibrated scale |21 rigidly secured thereto for rotation therewith about the fixed shaft Im, and the adjustable arm |23 is adapted to be secured in set or adjusted angular position with respect to the latch arm 98 by means of a set- Vscrew |29 carried by the adjustable arm |23 adapted to engage suitable notches provided in the face oi the scale |21. The time interval provided by the timing device may thus be adjusted by changing the angular position of the arm |23 relative to the latch arm 99 to make the pendulum H35 engage the arm |23 and release the latch 99 earlier or later in its swing. The mass of the pendulum accelerates at a iixed rate until it arrives at the lowest point of its path, and after this, as it again rises, in the opposite direction, the speed of movement thereof is decelerated. The pendulum type timing device has the advantage that it provides a pure time delay which is independent of the operating conditions aiecting the circuit breaker. Also by having the pendulum released at the beginning oi the opening movement of the circuit interrupting contacts, the time interval between opening and reclosing is made substantially independent of variations in the speed of movement of the circuit interrupting contacts and other operating conditions.

A resetting means is provided for restoring the circuit breaker or short circuit extinguisher to the initial position shown in Fig. 1 after the circuit breaker has interrupted and reclosed the circuit. This resetting means comprises an air pressure operated piston |3| movable ina cylinder |33 for returning the movable Contact members 2l of the circuit interrupters to closed circuit position, a second air pressure operated piston |35 movable in a cylinder |31 for returning the switch blades 3| to open position, and an air pressure operated piston |35 movable in a cylinder |Q| for resetting the timing device |133 to latched position.

The piston |31 is connected to the bar 5| which is, in turn, connected by the crank 53 to the actuating shaft 31, so that movement of the piston |3| to the left-hand end of the cylinder rotates the shaft 31 in a counterclockwise direction and thus returns the movable contact members 2| to closed circuit position in which they are latched by means of the latch d1.

The air pressure operated piston |35 for resetting the switch blades 8| connected to the switch operating shaft 3| by means oi a link |43 and a crank arm |45so that movement' of the piston |35 to the left-hand end of its cylinder rotates the switch actuating shaft 3| in a clockwise the switches and resetting of the latch 953.

'The piston |39 for resetting the timing device is connected by rack |114 and pinion Ille to a resetting member |41 which is Vrotatably mounted on the fixed shaft |01. |i1 is provided with a lateral projection |49 which is normally disposed beyond the maximum limit of swing of the pendulum |05 but which is moved by operation of the piston |39 to return the pendulum to latched position. A spring 15| biases the piston |35 and consequently the resetting member |41 to an inoperative position.

Air under pressure from Ia compressed air supply line |52 is adapted to be admitted to one end of the cylinders |33, |31 and IM by means of electromagnetically controlled valves |53 and|55,

the valve |53 controlling the supply of compressed air to the piston |3 and the valve |55 controlling the supply of compressed air to the cylinders |31 and lill. The valves |53 and |55 are normally biased by springs to connect the cylinders to the outside air, and are adapted to be operated by their controlling electromagnets when energized to admit air under pressure to the cylinders.

The operating windings |51. and |59 of the to open position isl direction to eiiect opening of .f-

The resetting member valves |53 and |55 are adapted to be energized from the supply lines |61 and |63 which are connected to a source oi electrical energy (not shown). A circuit 155 connects the operating winding 151 of the valve |53 to the supply lines |51 and |53, and included in series in this circuit is a manual control switch |61. A second circuit |59 electrically connects the operating winding |55 of the valve |55 to the supply lines I5! and |53, and included in series in the circuit |69 is a normally open interlock switch 11| which is closed by the piston |5| when the piston has operated the circuit interrupting contacts 2| to closed position. A second normally closed interlock switch |13 is included in series in the energizing circuit l 59, and this switch is adapted to be opened to deenergize the winding |59 after the air break switches 19 have been reset to the open position.

A modied construction of the timing pendulum is shown in Fig. 6. In this modification the pendulum is subdivided into a plurality of masses Ml and M2 mounted on individual arms Hl and H2 which are rigidly connected with each other and disposed at an angle to each other. The two masses Ml and M2 are the equivalent oi a single larger mass M mounted on a-n arm H of greater length as indicated by the dotted lines in Fig. 6. This modified pendulum construction thus provides the equivalent of a larger pendulum on a longer arm and yet requires only a relatively small amount of space. The other parts oi the timing device and their relation to the parts of the circuit breaker are the same as for the embodiment shown in Figs. l and 3.

ri'he operation of the apparatus is briefly as follows: Starting with the parts. in the normal position shown in Fig. l, let it be assumed that a short circuit occurs in circuit cf one of the poles of the circuit breaker. The electromagnetic trip device 51 of the affected pole will be energized a suflicient amount to operate the trip bar 55 and thus effect release of the actuating shaft 31 at the latch 41. Upon release of the actuating shaft 31 the accelerating springs A5 rotate the actuating shaft 31 in a clockwise direction effecting simultaneous movement of the three movable contact members 21 to the open circuit position and opening of the auxiliary switches 6| after the moving contacts 2| have opened a predetermined distance.

At a predetermined point in the initial opening movement of the circuit interrupting contacts 2i, preferably at a point shortly after the contacts 2| separate from the fixed contacts i5, the tripping element effects release of the pendulum latch |51 allowing the pendulum to start a swinging movement. At a predetermined point in the swinging movement of the pendulum, determined by the 'setting of the adjustable arm |23, the pendulum |55 strikes the arm |23 and effects release of the switch controlling latch 99. Upon release oi the latch 9S the switch operating springs 31 rotate the switch actuating sha-it 9| in a counterclockwise direction effecting simultaneous closing of the air break switches 15. Thus the circuit is interrupted `by the circuit interrupting contacts and automatically reclosed a predetermined time interval thereafter by the air break switches 15. The position of the parts after the circuit breaker has opened and reclosed the circuit is illustrated -in Fig. 2. As a very high percentage of short circuits are air short circuits which may be cleared in most instances by interruption of the circuit and allowing a short time for deionization at the fault position, the circuit may be immediately reclosed thereafter without causing restriking of the short circuit. Hence the circuit breaker of the present invention is particularly adapted for the clearing of such fault conditions by interrupting the circuit and automatically reclosing the circuit a predetermined interval of time following interruption of the circuit.

To reset the circuit breaker to its initial position following an operation thereof, the operator closes the manual control switch |61. Closing of the switch |61 effects energization oi the operating winding |51 and opening.r of the valve |53 so that air under pressure is admitted to the i cylinder |33, The air pressure moves the piston |3| to the left-hand end of the cylinder effecting return of the movable contact members 2| to closed position in which they are held lby the latch 41. the end of its operating stroke the interlock switch |1| is closed, thereby ycompleting the energizing circuit |69 for the operating winding |59 of the valve |55. Operation of the valve |55 admits air under pressure to the cylinders |31 and |4|. The piston |35 in the cylinder |31 is operated to the left-hand end of the `cylinder and causes clockwise rotation of the switch actuating shaft 9| effecting simultaneous -opening of the three switch blades 8|, in which position they are held `by the latch 99. At the same time operation of the piston |39 in the lcylinder |4 i effects return of the pendulum |95 to its normal Vlatched position in which it is held by the latch |01. As soon as the switch actuating piston reaches the end of its movement a rod connected thereto engages and opens the interlock switch |13 thereby eiiectinfI deenergization of the valve operating winding |59. When the operating 'windings |51 and |59 of the valves are deenergized, the valves are returned by springs to their' normal position in which the cylinders |33, |31 and |4| are all connected to the outside air. A spring |16 returns the resetting member |121 for the pendulum to inoperative position.

A manually operated latch |11 is pivotally mounted on an insulating support |19 secured to the top of the housing 9. The latch |-11 4is adapted to be moved into latching engagement with one of the switch blades 8| if it is desired to permanently disconnect the circuit breaker from the circuit. When the manually operated latch |11 is moved into latching engagement with one of the switch blades -8-|, it prevents closing of the three air break switches 19 thus maintaining the circuit breaker in open or disconnected position following an opening operation thereof. 'I'he three tripping solenoids 51 may be of the shunt trip type operated either in response to a short circuit condition, or by the operation of a manual trip control switch |15 which, when manually closed, completes an energizing circuit from the supply lines Hilft-63 for one of the tripping solenoids 51. If it is-desired to permanently open or disconnect Ythe circuitI breaker the manually operated latch |11 is moved into latching position in engagement with `one of 'the switch blades 8|, and thev trip control switch |15 is depressed. This causes thecircuit breaker to open the circuit in the 'manner previously described, and the air .break switches 19 remain held in open positionsothat vthe-breaker remains open.

A modification ofthe inventionis shown in'Fig. 4. In this modificationv the construction ofthe As soon as the piston |3| reaches circuit breaker is identical to that shown in Figs. 1 and 2 except that the auxiliary switches 6| are omitted, and the stationary contacts of the air break switches are mounted on .the heads .of the circuit interrupting devices instead of on a separate fixed support. The same reference characters with prime marks have been used to designate the elements which correspond to those shown in Figs. 1 and 2. In this modincation the stationary jaw contacts 3 of the .air break switches 19 are mounted directly on the metal heads of the circuit interrupting devices and are thus electrically connected to the upper terminal of the circuit breaker and hence to the lines r11 which is connected to the heads |9. The jaw contacts 83 are insulated from the lower terminal i3 of the circuit breaker by the tubular insulating casings l1. This construction possesses the advantage that it may be mounted in a shorter vertical space than the circuit breaker construction shown in Figs. 1 and 2. The operation of this embodiment of the invention is identical to that of the embodiment shown in Figs. 1 and 2 eX- cept, of course, that the auxiliary switchesare not present.

While the invention has been `disclosed in accordance with the patent statues, .it is to .be vunderstood that various changes in the structural details thereof may be made without departing from some of the essential features of the invention. It is desired therefore that the appended claims be given the -broadest reasonable construction permitted by their language and kthe .prior art.

We claim as our invention:

l. Electrical switching apparatus for controlling a circuit, comprising `a circuit interrupter having circuit interrupting contacts actuating means therefor and means for extinguishing arcs drawn by said contacts, a second `pair of contacts structurally associated with the interrupter and electrically connected in shunt relation directly across said circuit interrupting contacts, separate actuating means for said second pair of contacts, said circuit interruptingcontacts being normally closed and said second pair of contacts normally open, means operable to cause opening of said circuit interrupting contacts, and means including a timing device for initiating closing operation of said second pair of contacts a predetermined time interval after opening of said circuit interrupting contacts, said timing device providing apredetermined time interval which is'substantially constant and substantially vunaffected by variations in the speed of movement of said circuit interrupting contacts and other operating conditions. f

2. Electrical switching apparatus lfor controlling a circuit, comprising a circuit interruptor khaving relatively movable contacts, larc -extinguishing means associated with said contactsand actuating means for said contacts, a second -pair of relativelymovable contacts structurally associated with said interrupter and electrically connected in shunt relation directly across saidcir` cuit interruptor contacts, separate actuating means forsaid second pair of contacts, said-circuit interrupting contacts being normally lheld closed and said second pair of contacts-being normally open, means operable upon the occurrence of predetermined conditions for causing opening of said circuit interrupting contacts, and means including a timing device set in operation at a predetermined point in the opening movement of said kcircuit interrupting contactsand operating 6 independently of the movement of the movable interrupter contact for initiating 'circuit closing operation of the actuating means for said second pair of contacts a predetermined time interval after said circuit interrupting contacts have passed saidpredetermined po-int in the opening movement thereof.

3. 'A device for interrupting and automatically reclosing an electrical circuit, comprising a circuit interrupter having circuit interrupting contacts actuating means therefor end means for extinguishing arcs drawn by said circuit interrupting contacts, a second pair of contacts structurally associated with the interrupter and electrically connected in shunt relation directly across said circuit interrupting contacts, separate actuating means for said second pair of contacts, said circuit interrupting contacts being normally closed and said second pair of contacts normally open, means operable in response ditions to cause opening of said circuit interrupting contacts, and means including a weight-operated timing device set in operation at a predetermined point in the opening movement of said cir-' cuit interrupting contacts for initiating closing operation of said second pair of contacts a predetermined time interval after said interrupting contacts have opened to said predetermined point.

4. Electric l switching apparatus for controlling a circuit, comprising a circuit interrupter having circuit interrupting contacts and actuating means therefor, a second pair of contacts structurally associated with the interruptor and electrically connected in shunt'relation directly acrosssaid circuit interrupting contacts, separate actuating means for said second pair of contacts, said circuit interrupting contacts being normally closed and said second pair fo contacts being normally open, means operable in response to predetermined conditions for causing opening of said circuit interrupting contacts, and means comprising a pendulum released at a predetermined point in the opening movement of said circuit interrupting contacts or initiating closing operation of said second pair of contacts a predetermined time interval after said circuit interrupting contacts have opened to said predetermined point.

5. Electrical switching apparatus for controlling a circuit, comprising rupting contacts, actuating means therefor, means for extinguishing arcs drawn by said contacts, a second pair of contacts connected in series with said circuit interrupting contacts for providing a safe air gap when open, a third pair of contacts electrically connected in shunt relation directly across the interrupting contacts and the second pair of contacts, separate actuating means for said third pair of contacts, said circuit interrupting contacts and said seco-nd pair of contacts Vbeing normally closed and said third pair of contacts being normally open, means operable in response to predetermined conditions for causing opening of said circuit interrupting contacts, and means operable to cause closing of said third pair of contacts a predetermined time interval after opening of said circuit interrupting contacts.

6. Electrical switching apparatus for controlling a circuit, comprising a pair of circuit interrupting contacts, actuating means means for extinguishing arcs drawn by said contacts, a second pair of contacts connected in series with said circuit interrupting contacts, for providing a safe air gap when open, said second to predetermined conu therefor, K

a pairV of circuit interascites pair of contacts being coupled to said actuating means to be opened after said circuit interrupting contacts open and closed after said circuit interrupting contacts close, a third pair of contacts electrically connected in shunt relation directly across the circuit interrupting contacts and the second pair of contacts, separate actuating means for said third pair of contacts, said circuit interrupting contacts and said second pair of contacts being normally closed and said third pair of contacts being normally open, means operable in response to predetermined conditions to cause opening of said circuit interrupting contacts and opening of said second pair of contacts in rapid succession, and means including a timing device operable to cause closing of said third pair of contacts l.a predetermined time interval after opening of said circuit interrupting contacts.

'7. Electrical switching apparatus for controlling a circuit, comprising relatively movable circuit interrupting contacts, actuating means therefor, a second pair of relatively movable contacts electrically connected in shunt relation direcly across said circuit interrupting contacts, separate actuating means for said second pair of contacts, said circuit interrupting contacts being normally closed and said second pair of contacts normally open, means operable in response to predetermined conditions for causing opening of said circuit interrupting contacts, and means comprising a timing device set in operation after said circuit interrupting contactshave opened a predetermined distance and operating independently of the movement of the movable interrupting contact for initiating closing operation of the actuating means for said second pair of contacts a predetermined interval of time after opening of said circuit interrupting contacts.

8. Electrical switching apparatus for controlling a circuit, comprising relatively movable circuit interrupting contacts, actuating means therefor, a second pair of contacts electrically connected in shunt relation directly across said circuit interrupting contacts, separate spring means for closing said second pair of contacts, said circuit interrupting contacts being normally held closed and said second pair of contacts being normally held open, means operable in response to predetermined conditions for causing opening of said circuit interrupting contacts, and means including a timing device set in operation at a predetermined point in the initial opening movement of said circuit interrupting contacts and operating independently of the movement of the movable interrupting contact for initiating closing of said second pair of contacts a predetermined time interval after said circuit interrupting contacts have passed said predetermined point in the opening movement thereof, and iiuid pressure Operated means operable to reset said circuit interrupting contacts to closed position while said second pair of contacts are in closed position and thereafter reset said second pair of contacts to open position.

9. Electrical switching apparatus for controlling a circuit, comprising relatively movable circuit interrupting contacts biased to open position, a second pair of relatively movable contacts electrically connected in shunt relation directly across said circuit interrupting contacts, separate spring means for closing said second pair of contacts, said circuit interrupting contacts being normally held closed and said second pair of contacts being normally held open, the movable contact of said second pair of contacts being mounted for movement independently of the movable interrupting contact, means operable in response to predetermined conditions for causing opening of said circuit interrupting contacts, means comprising a pendulum held in raised position by a latch and released at a predetermined point in the opening movement of said circuit interrupting contacts after the movable interrupting contact has moved in opening direction a predetermined amount for releasing said second pair of contacts to cause closing thereof after said pendulum has swung a predetermined amount.

10. Electrical switching apparatus for controlling a circuit, comprising circuit interrupting ccntacts, actuating means therefor, a second pair of contacts electrically connected in shunt relation directly across said circuit interrupting contacts, a separate spring means for closing said second pair of contacts, said circuit interrupting contacts being normally closed and said second pair of contacts being normally held open, means operable in response to predetermined conditie s for causing opening of said circuit interrupting contacts, means comprising a pendulum held in raised position by a latch and released at a predetermined point in the initial opening movement of said circuit interrupting contacts for releasing said second pair of contacts to cause closing thereof when said pendulum has swung a predetermined amount, and adjusting means for adjusting the point in the swing of said pendulum at which it elects release of said second pair of contacts to thereby vary the time interval between opening and reclosing of the circuit.

11. Electrical switching apparatus for controlling a circuit, comprising circuit interrupting contacts, actuating means therefor, e, second pair of contacts electrically connected in shunt rela.- tion directly across said circuit interrupting contacts, separate actuating means for said second pair of contacts, said circuit interrupting contacts being normally closed and said second pair of contacts normally held open, means operable in response to predetermined conditions to cause opening `of said circuit interrupting contacts, means including a pendulum held in raised position by a latch and released at a predetermined point in the opening movement of said circuit interrupting contacts operable to cause closing operation of said second pair of contacts a predetermined time interval after opening of said circuit interrupting contacts, said pendulum comprising a plurality of masses mounted on lever arms which are at an angle to each other and rigidly connected to each other.

l2. Electrical switching apparatus for controlling a circuit, comprising a hollow base, a circuit interrupter having relatively movable contacts mounted in an enclosing casing on said base, an air break switch on said base at the side of said circuit interrupter casing and electrically connected in shunt relation directly across the contacts of the interrupter, actuating means for said circuit interrupter mounted in said hollow base, separate actuating means for said switch mounted in said hollow base, said circuit interrupter contacts being normally closed and said switch being normally open, the movable contact of said switch being mounted for movement independently of the movable interrupter contact, means operable in response to predetermined conditions to cause opening of said circuit interrupter contacts, and means including a timing device mounted in said hollow base set in operation at a predetermined point in the opening movement of said circuit interrupter contacts and operatingindependently of the movable interrupter contact for initiating closing operation of said switch a predetermined time interval after opening of said circuit interrupter contacts.

13. Electrical switching apparatus for controlling acircuit, comprising a hollow base, a circuit interrupter having relatively movable contacts mounted in an enclosing casing on said base and insulated therefrom, an air break switch insulatively mounted on said base at the side of said interrupter casing and electrically connected in shunt relation directly across the contacts of the interrupter, actuating means for said interrupter mounted in said hollow base and connected to said interrupter contacts by an insulating rod, separate actuating means for said switch mounted in said hollow base and connected to said switch by an insulating rod, means operable in response to predetermined conditions to cause opening of said interrupter contacts, and means including a falling weight mounted in said hollow base held in raised position by a latch and released at a predetermined point in the opening movement of said circuit interrupter contacts to cause closing operation of said switch a predetermined time interval after opening of said interrupter contacts.

14. Electrical switching apparatus for controlling a circuit, comprising a hollow base, a circuit interrupter having relatively movable contacts mounted in an enclosing casing on said base, said enclosing casing having an insulating portion and a metal flange, an air break switch electrically connected in shunt relation directly across the contacts of the interrupter and having its movable contact pivoted on the metal flange oi the circuit interrupter casing, actuating means for said interrupter disposed in said hollow base, separate actuatingmeans for said switch disposed in said hollow base, said circuit interrupter contacts being normally closed and said switch normally open, means operable to cause opening of said circuit interrupter contacts, and means operated a predetermined point in the Opening movement of said circuit interrupter contacts for causing a closing operation of said switch a predetermined time interval after opening of said circuit interrupter contacts.

l5. Electrical switching apparatus for controlling a circuit, comprising a base, a circuit interrupter having a stationary and a movable contact mounted in an enclosing insulating casing on said base, said casing having a metal portion adjacent the lower end electrically connected to the stationary contact, an air break switch electrically connected in shunt relation directly across the circuit interrupter contacts, said switch having the movable contact thereof pivoted to the metal portion adjacent the lower end of said circuit interrupter casing at the side of said casing and having its stationary contact secured to the casing adjacent the upper end thereof, actuating means for said circuit interrupter, separate actuating means for said switch, said circuit interrupter contacts being normally closed and said switch being normally open, means operable in response to predetermined condition to cause an opening operation of said circuit interrupter contacts, and means operable to cause a closing operation of said switch a predetermined time interval after said circuit interrupting contacts have opened a predetermined amount.

16. Electrical switching apparatus for controlling a circuit, comprising means for opening and closing the circuit, means operable in response to predetermined conditions to cause a circuit opening operation of said means for opening the circuit and timing means comprising a weight normally held in raised position and released at afpredetermined intermediate point in the circuit opening operation for1 causing a closing operation of the means for closing the circuit a predetermined time interval after opening of thecircuit.

i7. Electrical switching apparatus for controlling a circuit, comprising means for opening and closing the circuit, operating means therefor, means operable in response to predetermined conditions to cause said means for opening the circuit to interrupt `the circuit, and timing means comprising a pendulum normally held in raised position by a latch and yreleased at a predetermined intermediate point in the circuit opening operation for causing the means for closing the circuit to automatically close the circuit a predetermined time interval after opening of the circuit, and adjusting means for varying the time interval provided by said timing means.

18. Electrical switching apparatus for controlling a circuit, comprising a i'lrst set of relatively movable contacts for interrupting the circuit, a second set of relatively movable contacts electrically connected in shunt relation directly across said rst Set of contacts, operating means operable to cause opening of said rst set of contacts to interrupt the circuit and to then cause clos,- ing of said second set of contacts to reclose the circuit, and timing means set in operation when said `rst set of contacts have opened a predetermined amount an-d operating independently of the movement of the movable contact of said first set of contacts to provide a predetermined pure time delay independent of variations in operating conditions between a predetermined point in the opening operation of said first set of contacts and the initiation of the closing operation of said second set of contacts. y

19. Electrical switching apparatus for controlling a circuit comprising a circuit interrupter having relatively movable contacts and arc entinguishing means, actuating means for said in- 'terrupten a second pair of relatively movable contactsI structurally associated with the interrupter and electrically connected in shunt relation directly across the contacts of the interrupter, the movable contact of said second pair of contacts being mounted for movement independently of the movable contact of the interrupter and being normally maintained in open position, separate actuating means for said second pair of contacts, means operable in response to predetermined abnormal conditions for causing opening operation of said interruptor, and means including a timing device set in operation during the initial opening movement of said interrupter contacts and operable after a predetermined time interval to initiate circuit closing operation of the actuating means of said second pair of contacts to close said second pair of contacts,.said timing device operating independently of the movement of the movable interrupter contact.

20. Electrical switching apparatus for controlling a circuit, comprising a circuit interrupter having relatively movable contacts, actuating means therefor, a second pair of relatively movable contacts structurally associated with the interrupter and electrically connected in shunt relation directly across said circuit interruptercontacts, a separateY spring means for closing said second pair of contacts, said circuit interrupting contacts being normally closed and said second pair of contacts being normally held open, the movable contact of said second pair ci contacts being mounted for movement independently of the movable circuit interruptor contact, means operable in response to predetermined conditions for causinCr opening of said circuit interrupter contacts, and means including a timing device set in operation at a predetermined point in the initiallopening movement of said circuit interrup-tercontacts and operating independently of the .movement of the movable interrupter con-- tact to release said second pair of contacts to cause closing thereof a predetermined time interval after opening of said interrupter contacts.

2l. Electrical switching apparatus for controlling a circuit, comprising relatively movable circuit interrupter contacts, actuating means therefor, a second pair of relatively movable contacts electrically connected in Ishunt relation directly across said circuit interrupting contacts, separate actuating means for said second pair of contacts, said circuit interrupting contacts being normally closed and said second pair of contacts being normally open, the movable contact of said second pair of contacts being mounted for movement independently of the movable interrupting contact, means operable in response to predetermined vconditions to cause opening of said circuit interrupting contacts, and means including a tming device set in operation after the movable interrupting contact has moved a predetermined amount in opening direction and operating independently of the movement of the movable interrupter Contact for initiating closing of said second pair of contacts a predetermined time inn terval after opening of said circuit interrupting contacts, said timing device including means for varying the time interval provided thereby.

WERNER KAUFMANN. OTTO FLGEL. ADOLF THEWALT. LEOPOLD rERsCEL. 

